Abstract
Currently, the railway sector demands novel lighter designs for the structural components of rolling stock that compensate for the increase in weight due both to the incorporation of new technologies for passenger comfort and experience, as well as to face new environmental challenges (reduction of emissions, consumption power, etc).
With this objective in mind, Aernnova-Talgo-FIDAMC-Tecnalia have proceeded to develop a car body structure design for a high-speed passenger car that introduces up to 70% of high-performance composite material (CFRP). This makes it possible to achieve weight reductions of more than 20% when it is compared to the original 100% aluminum structure.
The solution combines frame, sidewalls and roof in an integral solution in CFRP with the usual solution in welded aluminum for the closing endwalls.
The use of composite material for these structures also implies the introduction of non-conventional manufacturing methods for the railway sector (Semipreg-Sandwich-Pultrusion) with curing outside of autoclave and compliance with the demanding fire and smoke requirements of the EN 45545.
The final objective of the project is the bench validation of the prototype according to the usual standards of the railway sector, EN 12663.
Currently, the railway sector demands novel lighter designs for the structural components of rolling stock that compensate for the increase in weight due both to the incorporation of new technologies for passenger [...]